Patent application number | Description | Published |
20120179032 | REMOTE CATHETER SYSTEM WITH STEERABLE CATHETER - A catheter procedure system including a user interface for receiving at least a first user input and a second user input and a guide catheter is provided. The catheter procedure system also includes a guide catheter actuating mechanism coupled to the guide catheter and a Y-connector. The guide catheter actuating mechanism is configured to advance and retract the guide catheter in response to the first user input and to rotate the guide catheter in response to the second user input. The catheter procedure system includes a first connector coupling the Y-connector to the guide catheter actuating mechanism, and the first connector is configured to allow the Y-connector to advance and retract with the guide catheter and to allow the guide catheter to rotate without also causing the Y-connector to rotate. | 07-12-2012 |
20120179167 | ROBOTIC CATHETER SYSTEM - A robotic catheter system including a housing and a drive mechanism configured to engage and to impart motion to a catheter device is provided. The drive mechanism is supported by the housing. The robotic catheter system includes a guide catheter support coupled to the housing. The guide catheter support is located in front of the drive mechanism, and the guide catheter support has a longitudinal axis. The guide catheter support includes a first surface configured to engage a guide catheter and a rotation joint allowing the first surface to be rotated about the longitudinal axis such that the surface is able to engage the guide catheter at a plurality of angular positions relative to a patient. | 07-12-2012 |
20120271319 | CATHETER SYSTEM WITH PERCUTANEOUS DEVICE MOVEMENT ALGORITHM - A workstation configured for operating a robotic catheter system is provided. The workstation includes a user interface configured to receive a user input and a control system operatively coupled to the user interface for remotely and independently controlling movement of at least a first percutaneous device and a second percutaneous device. At least the first percutaneous device is moveable both for advancement and retraction along a longitudinal axis of the first percutaneous device and for rotation about a longitudinal axis of the first percutaneous device. The workstation also includes a device movement algorithm subsystem including at least one set of instructions. The control system controls the first percutaneous device based upon both the user input and the at least one set of instructions of the device movement algorithm subsystem. | 10-25-2012 |
20130214912 | PROTECTED CONTROL CONSOLE APPARATUSES - An apparatus for control of a procedure, comprising: a communications interface; a control console, wherein the control console is adapted to provide control commands via the communications interface to at least one of: at least one imaging device or at least one medical instrument used to perform the procedure; and, at least one radiation shield attached to the control console and positioned between the control console and a patient on which the procedure is being performed, wherein the apparatus is separately movable from at least one of the at least one imaging device, the patient or the at least one medical instrument. | 08-22-2013 |
20130231631 | ROBOTIC CATHETER SYSTEM WITH VARIABLE SPEED CONTROL - A robotic catheter procedure system for performing a procedure on a patient is provided. The robotic catheter procedure system includes a bedside system and a remote workstation. The bedside system includes a percutaneous device and an actuating mechanism configured to engage and to impart movement to the percutaneous device. The remote workstation includes a user interface configured to receive a user input and a display device configured to display an image of a portion of the patient. The image includes a magnification level. The workstation also includes a control system operatively coupled to the user interface. The control system is configured to generate a control signal. The actuating mechanism causes movement of the percutaneous device in response to the control signal, and the control signal is based upon the user input and the magnification level. | 09-05-2013 |
20130231678 | ROBOTIC CATHETER SYSTEM WITH VARIABLE DRIVE MECHANISM - A robotic catheter procedure system is provided. The robotic catheter procedure system includes a bedside system and a remote workstation. The bedside system includes a percutaneous device and a drive mechanism configured to engage and to impart an axial force to the percutaneous device and to advance and retract the percutaneous device. The bedside system includes an actuator providing torque to the drive mechanism to impart the axial force to the percutaneous device, and the torque provided by the actuator is variable. The remote workstation includes a user interface configured to receive a first user input and a control system operatively coupled to the user interface. The control system is configured to communicate a control signal to the actuator. The control signal is based upon the first user input and a second input, and the actuator provides torque to the drive mechanism in response to the control signal. | 09-05-2013 |
20130274657 | WHEEL FOR ROBOTIC CATHETER SYSTEM DRIVE MECHANISM - A drive mechanism for a robotic catheter system including a first engagement surface and a second engagement surface is provided. The first engagement surface and second engagement surface are configured to engage a catheter device to allow the drive mechanism to impart motion to the catheter device. The first engagement surface is textured to facilitate gripping between the first engagement surface and the catheter device. | 10-17-2013 |
20140039305 | ROBOTIC CATHETER SYSTEM INCLUDING IMAGING SYSTEM CONTROL - A robotic catheter procedure system includes a bedside system and a workstation. The bedside system includes an actuating mechanism configured to engage and to impart movement to a percutaneous device. The workstation includes a user interface and a control system configured to be operatively coupled to the user interface, the bedside system, and a medical imaging system. The control system is responsive to a first input and to a second input, and the user interface receives the second input from a user. The control system is configured to generate a first control signal to the medical imaging system based on the first input, and the medical imaging system captures at least one image in response to the first control signal. The control system is configured to generate a second control signal to the actuating mechanism based on the second input, and the actuating mechanism causes movement of the percutaneous device in response to the second control signal. The first input is indicative of upcoming percutaneous device movement. | 02-06-2014 |
20140058321 | WHEEL FOR ROBOTIC CATHETER SYSTEM DRIVE MECHANISM - A drive mechanism for a robotic catheter system including a first engagement surface and a second engagement surface is provided. The first engagement surface and second engagement surface are configured to engage a catheter device to allow the drive mechanism to impart motion to the catheter device. The first engagement surface is textured to facilitate gripping between the first engagement surface and the catheter device. | 02-27-2014 |
20140058322 | CATHETER SYSTEM - A robotic catheter system is provided. The robotic catheter system includes a housing and a drive assembly coupled to the housing. The drive assembly is configured to impart movement to a catheter device. The catheter system includes a release structure permitting the drive assembly to be decoupled and removed from the housing without removing the catheter device from a patient. | 02-27-2014 |
20140309658 | OCCLUSION TRAVERSAL ROBOTIC CATHETER SYSTEM - A robotic catheter procedure system for performing a procedure to treat a vascular lesion including a bedside system and a remote workstation is provided. The bedside system includes a first percutaneous device including an end section, the end section structured to allow the first percutaneous device to create a bore through the vascular lesion. The bedside system includes a second percutaneous device. The bedside system also includes a first actuating mechanism configured to engage and to impart movement to the first percutaneous device and a second actuating mechanism configured to engage and to impart movement to the second percutaneous device. The remote workstation includes a user interface and a control system operatively coupled to the user interface and to the bedside system. The control system controlling the first actuating mechanism to cause movement of the first percutaneous device to create a bore through the lesion and the second actuating mechanism to cause movement of the second percutaneous device through the bore created by the first percutaneous device. | 10-16-2014 |
20140343566 | CATHETER CONTROL SYSTEM AND GRAPHICAL USER INTERFACE - A remote workstation for the control of percutaneous intervention devices is provided. The remote workstation includes a control system for remotely and independently controlling at least two percutaneous intervention devices. The control system includes at least one input device to control the percutaneous intervention devices. The control system controls movement of at least one of the percutaneous intervention devices along at least two degrees of freedom. The remote workstation also includes a graphical user interface for displaying icons representative of the operational status of each of the percutaneous intervention devices. | 11-20-2014 |